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The distance moved by the object can be calculated by dividing the work done by the force applied. In this case, the distance is 15 meters.
No. Work depends on the force applied and the distance moved.
The work done would be calculated by 2mgh. The force on the ball is calculated by mg, and work done is by Fd, where d is 2h (the force acts on both upwards height and downwards height, thus twice the distance).
Moving an object up an inclined plane requires less force compared to lifting it straight up. An inclined plane makes work easier by increasing the distance an object must be moved and changing the height that it spans.decreasing the force.
work
Force moved through a distance is work. Work = Force x Distance
The distance moved by the object can be calculated by dividing the work done by the force applied. In this case, the distance is 15 meters.
No. Work depends on the force applied and the distance moved.
Work = force * distance moved
The work done would be calculated by 2mgh. The force on the ball is calculated by mg, and work done is by Fd, where d is 2h (the force acts on both upwards height and downwards height, thus twice the distance).
Work = force times displacement. F = 4500 N and height = distance that box was moved through (3.5 m). Plug these values in given formula and you will have your answer.
Moving an object up an inclined plane requires less force compared to lifting it straight up. An inclined plane makes work easier by increasing the distance an object must be moved and changing the height that it spans.decreasing the force.
work
work
This is the equation for "work."
Formula of work is always { Work= Force x Distance} so you find the force applied and the distance moved then multiply
force=2N distance moved=o.1 m work done=? work done=force(N)*distance moved (M) work done=2*o.1 work done= 0.2 watts